J. F. Kincaid scite author profile

J. F. Kincaid

2Publications

52Citation Statements Received

52Citation Statements Given

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University of Illinois at Chicago

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Nonpeptidal P₂ Ligands for HIV Protease Inhibitors: Structure-Based Design, Synthesis, and Biological Evaluation

Kincaid

Walters

et al. 1996

J. Med. Chem.

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Design and synthesis of nonpeptidal bis-tetrahydrofuran ligands based upon the X-ray crystal structure of the HIV-1 protease-inhibitor complex 1 led to replacement of two amide bonds and a 10 pi-aromatic system of Ro 31-8959 class of HIV protease inhibitors. Detailed structure-activity studies have now established that the position of ring oxygens, ring size, and stereochemistry are all crucial to potency. Of particular interest, compound 49 with (3S,3aS,6aS)-bis-Thf is the most potent inhibitor (IC50 value 1.8 +/- 0.2 nM; CIC95 value 46 +/- 4 nM) in this series. The X-ray structure of protein-inhibitor complex 49 has provided insight into the ligand-binding site interactions. As it turned out, both oxygens in the bis-Thf ligands are involved in hydrogen-bonding interactions with Asp 29 and Asp 30 NH present in the S2 subsite of HIV-1 protease. Stereoselective routes have been developed to obtain these novel ligands in optically pure form.

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ChemInform Abstract: A Convenient Enzymatic Route to Optically Active 1‐Aminoindan‐2‐ol: Versatile Ligands for HIV‐1 Protease Inhibitors and Asymmetric Syntheses.

1997

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J. F. Kincaid

Nonpeptidal P₂ Ligands for HIV Protease Inhibitors: Structure-Based Design, Synthesis, and Biological Evaluation

ChemInform Abstract: A Convenient Enzymatic Route to Optically Active 1‐Aminoindan‐2‐ol: Versatile Ligands for HIV‐1 Protease Inhibitors and Asymmetric Syntheses.

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J. F. Kincaid

Nonpeptidal P2 Ligands for HIV Protease Inhibitors: Structure-Based Design, Synthesis, and Biological Evaluation

ChemInform Abstract: A Convenient Enzymatic Route to Optically Active 1‐Aminoindan‐2‐ol: Versatile Ligands for HIV‐1 Protease Inhibitors and Asymmetric Syntheses.

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Nonpeptidal P₂ Ligands for HIV Protease Inhibitors: Structure-Based Design, Synthesis, and Biological Evaluation